Matching Items (3)
Description
The Great Bustard (Otis tarda) is an iconic species of the temperate grasslands of Europe and Asia, a habitat that is among the least protected ecosystems in the world. A distinct subspecies, the Asian Great Bustard (O. t. dybowskii), is poorly understood due to its wary nature and remote range in Siberia, Mongolia, and northern China. This subspecies is now endangered by rapid development.
Using satellite telemetry and remote sensing, I investigated three aspects of the Asian Great Bustard’s ecology critical to its conservation: migratory routes, migratory cues, and habitat use patterns. I found that Asian Great Bustards spent one-third of the year on a 2000 km migratory pathway, a distance twice as far as has previously been recorded for the species. Tracked individuals moved nomadically over large winter territories and did not repeat migratory stopovers, complicating conservation planning. Migratory timing was variable and migratory movements were significantly correlated with weather cues. Specifically, bustards migrated on days when wind support was favorable and temperature presaged warmer temperatures on the breeding grounds (spring) or advancing winter weather (fall). On the breeding grounds, Asian Great Bustards used both steppe and wheat agriculture habitat. All recorded reproductive attempts failed, regardless of habitat in which the nest was placed. Agricultural practices are likely to intensify in the coming decade, which would present further challenges to reproduction. The distinct migratory behavior and habitat use patterns of the Asian Great Bustard are likely adaptations to the climate and ecology of Inner Asia and underscore the importance of conserving these unique populations.
My research indicates that conservation of the Asian Great Bustard will require a landscape-level approach. This approach should incorporate measures at the breeding grounds to raise reproductive success, alongside actions on the migratory pathway to ensure appropriate habitat and reduce adult mortality. To secure international cooperation, I proposed that an increased level of protection should be directed toward the Great Bustard under the Convention on Migratory Species (CMS). That proposal, accepted by the Eleventh Conference of Parties to CMS, provides recommendations for conservation action and illustrates the transdisciplinary approach I have taken in this research.
Using satellite telemetry and remote sensing, I investigated three aspects of the Asian Great Bustard’s ecology critical to its conservation: migratory routes, migratory cues, and habitat use patterns. I found that Asian Great Bustards spent one-third of the year on a 2000 km migratory pathway, a distance twice as far as has previously been recorded for the species. Tracked individuals moved nomadically over large winter territories and did not repeat migratory stopovers, complicating conservation planning. Migratory timing was variable and migratory movements were significantly correlated with weather cues. Specifically, bustards migrated on days when wind support was favorable and temperature presaged warmer temperatures on the breeding grounds (spring) or advancing winter weather (fall). On the breeding grounds, Asian Great Bustards used both steppe and wheat agriculture habitat. All recorded reproductive attempts failed, regardless of habitat in which the nest was placed. Agricultural practices are likely to intensify in the coming decade, which would present further challenges to reproduction. The distinct migratory behavior and habitat use patterns of the Asian Great Bustard are likely adaptations to the climate and ecology of Inner Asia and underscore the importance of conserving these unique populations.
My research indicates that conservation of the Asian Great Bustard will require a landscape-level approach. This approach should incorporate measures at the breeding grounds to raise reproductive success, alongside actions on the migratory pathway to ensure appropriate habitat and reduce adult mortality. To secure international cooperation, I proposed that an increased level of protection should be directed toward the Great Bustard under the Convention on Migratory Species (CMS). That proposal, accepted by the Eleventh Conference of Parties to CMS, provides recommendations for conservation action and illustrates the transdisciplinary approach I have taken in this research.
ContributorsKessler, Aimee (Author) / Smith, Andrew T. (Thesis advisor) / Brown, David (Committee member) / Franklin, Janet (Committee member) / McGraw, Kevin (Committee member) / Wu, Jianguo (Committee member) / Arizona State University (Publisher)
Created2015
Description
Mongolian overtone singing (höömii) and Mongolian wrestling songs (tsols) are vocal styles that evoke physical and mental strength in the vocalist through the accessing of nature. The phrase “höömii-tsol-thinking computer” conveys my end-goal while composing, performing, and researching for my original composition strong.mng. I wanted to create a work in which the computer would be informed by the performance methods and philosophies employed during Mongolian höömii and tsols.
Strong.mng is a 25-minute production for dancer, live digital illustrator, and overtone singer with a laptop computer serving as both a fixed and interactive responsive musical instrument. The music draws upon themes from höömii and tsols through the lens of virtual fieldwork, which was the research method I used to inform strong.mng. Through the composing and performing of strong.mng, I arrived at the following three-part hypothesis: firstly, the development of a robust symbiotic relationship between höömii, tsols, and today’s electronic music technology may transform the technological devices used into agents of deep ecology and bodily interconnectedness. Secondly, this transformation may metamorphose the performer into a more courageous being who is strengthened both physically and mentally by the Mongolian belief that, when performing höömii and tsols, the musician is drawn into kinship with nature. Lastly, I believe some computer music is restrained in its potential by techno-somatic discreteness as well as anthropocentrism, and that applying philosophies from höömii and tsols can help move computer music more towards a physically embodying means of sonification; one that is also akin with the natural world.
Strong.mng is a 25-minute production for dancer, live digital illustrator, and overtone singer with a laptop computer serving as both a fixed and interactive responsive musical instrument. The music draws upon themes from höömii and tsols through the lens of virtual fieldwork, which was the research method I used to inform strong.mng. Through the composing and performing of strong.mng, I arrived at the following three-part hypothesis: firstly, the development of a robust symbiotic relationship between höömii, tsols, and today’s electronic music technology may transform the technological devices used into agents of deep ecology and bodily interconnectedness. Secondly, this transformation may metamorphose the performer into a more courageous being who is strengthened both physically and mentally by the Mongolian belief that, when performing höömii and tsols, the musician is drawn into kinship with nature. Lastly, I believe some computer music is restrained in its potential by techno-somatic discreteness as well as anthropocentrism, and that applying philosophies from höömii and tsols can help move computer music more towards a physically embodying means of sonification; one that is also akin with the natural world.
ContributorsKennedy, Justin Leo (Author) / Paine, Garth (Thesis advisor) / Solís, Ted (Committee member) / Suzuki, Kotoka (Committee member) / Arizona State University (Publisher)
Created2016
Description
Oviraptor philoceratops was a small bird-like dinosaur that lived about seventy-five million years ago, during the late Cretaceous period. In 1923, George Olsen of the American Museum of Natural History (AMNH) in New York City, New York, discovered the first Oviraptor fossilized skeleton on top of a dinosaur egg nest in the Gobi Desert, Mongolia. Because of the close proximity of dinosaur and nest, when Henry Fairfield Osborn president of the AMNH published on the discovery, he assumed that the Oviraptor had died attempting to steal the eggs. However, since the initial discovery, more Oviraptor adults, eggs, and a well-preserved embryo fossil have confirmed that Oviraptors were parents who sat on their nests, a behavior called brooding common among birds. The fossils of Oviraptor philoceratops, from eggs and embryos to adults, provide evidence about dinosaur growth, development, and reproductive behaviors.
ContributorsMadison, Paige (Author) / Haskett, Dorothy Regan (Editor) / Arizona State University. School of Life Sciences. Center for Biology and Society. Embryo Project Encyclopedia. (Publisher) / Arizona Board of Regents (Publisher)
Created2015-02-11